Cloning, Sequence Analysis, and Prokaryotic Expression of LaAACT Gene From Leaves of Seedlings

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Cloning, Sequence Analysis, and Prokaryotic Expression of LaAACT Gene From Leaves of Seedlings

更新时间：2024-01-04

- Cloning, Sequence Analysis, and Prokaryotic Expression of LaAACT Gene From Leaves of Seedlings
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 23, Issue 11, Pages: 34-39(2017)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.13422/j.cnki.syfjx.2017110034
  CLC： Q943.2;S567.2
- Published：2017
- 稿件说明：
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ZHAO Le, MA Li-gang, YANG Ze-an, et al. Cloning, Sequence Analysis, and Prokaryotic Expression of LaAACT Gene From Leaves of Seedlings[J]. Chinese journal of experimental traditional medical formulae, 2017, 23(11): 34-39.
DOI：

ZHAO Le, MA Li-gang, YANG Ze-an, et al. Cloning, Sequence Analysis, and Prokaryotic Expression of LaAACT Gene From Leaves of Seedlings[J]. Chinese journal of experimental traditional medical formulae, 2017, 23(11): 34-39. DOI： 10.13422/j.cnki.syfjx.2017110034.

摘要

目的：研究独行菜强心苷生物合成途径的相关基因，从独行菜幼苗叶片中克隆强心苷生物合成途径关键酶乙酰CoA酰基转移酶（acetyl-CoA C-acetyltransferase，AACT）基因，进行序列分析和原核表达。方法：根据独行菜转录组数据中LaAACT基因序列设计特异性引物，克隆得到LaAACT基因的cDNA序列，构建pET-32a-LaAACT原核表达载体，诱导表达LaAACT重组蛋白。结果：LaAACT 基因ORF全长为1 212 bp，编码403个氨基酸。序列分析结果显示LaAACT蛋白没有跨膜区，不含信号肽，位于细胞质中，含有硫解酶家族保守结构域。系统进化结果显示LaAACT蛋白与十字花科植物的AACT蛋白亲缘关系较近。通过IPTG诱导，在大肠埃希菌中成功表达LaAACT重组蛋白，并得到了纯化的LaAACT重组蛋白。结论：首次从独行菜幼苗叶片中克隆了LaAACT基因，建立其稳定的原核表达体系，为LaAACT蛋白抗体的制备，进一步研究LaAACT基因在独行菜强心苷生物合成途径中的功能奠定了基础。

Abstract

Objective: To obtain the key enzyme genes involved in cardiac glycosides biosynthesis pathway

acetyl-CoA C-acetyltransferase (AACT) gene

from leaves of Lepidium apetalum seedlings

and conduct sequence analysis and prokaryotic expression analysis. Method: Based on the transcriptome data of L. apetalum

specific primers were designed to obtain cDNA sequence of LaAACT gene

construct prokaryotic expression vector pET-32a-LaAACT and induce the expression of recombinant LaAACT protein. Result: LaAACT gene had ORF full length of 1 212 bp

which encoded a protein of 403 amino acid residues. Sequence analysis indicated that LaAACT protein located in cytoplasm had no transmembrane domain and signal peptide

and the conserved domains of thiolase super family were detected. Phylogenetic analysis indicated that LaAACT protein had the closest relationship with AACT protein from cruciferous plant. The recombinant LaAACT protein was successfully expressed in E. coli BL21 (DE3) cells and finally

the recombinant LaAACT protein was purified through Ni2+ affinity chromatography. Conclusion: LaAACT gene was isolated from leaves of L. apetalum seedlings for the first time

and the stable prokaryotic expression system of pET-32a-LaAACT was constructed. This study could provide fundamental information for antibody preparation of LaAACT protein and provide basis for functional researches of LaAACT gene in cardiac glycosides biosynthesis pathway.

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Related Author

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Related Institution

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